SDKZ Rotary Type with Encoder Rotary type power switch with encoder Detector ■ Ratings and Safety Standards Items Specifications 16(6)A 250V AC 14(6)A 250V AC Slide Maximum rating(Power) Maximum rating(Encoder) 0.1A 12V DC Push Contact resistance(Encoder) Initial / after life test 1Ω max. / 1Ω max. Operating(Power) 10,000 cycles Operating life(Encoder) 30,000 cycles Rotary ■ Product Line Circuit arrangement Torque From "OFF" position to "ON" position Operating Positions Other positions direction Mounting method Minimum order unit(pcs.) Terminal Configuration Japan Min Product No. Power 14±3N 10±3N 15 SDKZ1F0200 12±3N 6±3N 16 SDKZ1G0200 Dual-in-line Package Type 7.5±3N DPST 19 Vertical PC board Straight 288 288 1 SDKZ1K0200 10±3N 21 SDKZ1M0200 7.5±3N 24 SDKZ1Q0200 10±3N 25 SDKZ1R0200 14±3N Drawing No. 2 Push Type Packing Specifications Tray Number of packages(pcs.) Rocker Type 1 case /Japan 1 case /export packing 288 288 Export package measurements(mm) 411×311×217 Slide Type Rotary Type 172 Refer to P.176 for soldering conditions. SDKZ/Rotary Type with Encoder Unit:mm No. Detector Dimensions Style Slide Push Rotary Power 1 Dual-in-line Package Type PC board mounting hole dimensions Push Type 3 12 10 4 5.3 5 6 7 32.1 15.05 4 1 18.1 8 24 Slide Type 17.05 1A 12 30.2 20.1 2A Rocker Type 29.6 2 Rotary Type 2 PC board mounting hole dimensions 173 SDKZ Rotary Type with Encoder Detector Standard Code SDKZ1F0200 27.2 $ 27.25 Slide 5$ 1 3- 1 .5 2 $ 3 14 15 23 13 4 5 1 12 CODE TERM POS Power contacts1-2 Circuit Diagram(Power Switch) 2 4 5 6 7 8 9 10 11 12 13 14 15 TERM 1 2 3 POS Power contacts1-2 4 5 6 7 8 9 10 11 12 13 14 15 16 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Condification contact3 11 Condification contact4 6 Condification contact5 1A 7 8 10 9 Push 1 2 3 2A 3 4 5 6 8 Condification contact6 SDKZ1G0200 Rotary 16-22.5 16 $ 2 CODE Circuit Diagram(Power Switch) 1 2 Condification contact3 Condification contact4 Condification contact5 6 12 5 1A 1 7 Power 13 4 14 3 15 1 2A 3 4 5 6 8 Condification contact6 8 9 10 4-30$ 16 -1 5$ CODE 18 19 20 21 5 17 6 7 8 9 1 2 Condification contact3 Condification contact4 Condification contact5 1A 10 12 13 14 15 11 Push Type 16 TERM 1 2 3 POS Power contacts1-2 Circuit Diagram(Power Switch) 4 24 1 2 3 23 22 Dual-in-line Package Type SDKZ1K0200 2A 3 4 5 6 7 8 Condification contact6 Condification contact7 SDKZ1M0200 Rocker Type 21 1 CODE 2 TERM 1 2 3 POS Power contacts1-2 Circuit Diagram(Power Switch) 3 4 5 1 2 Condification contact3 Condification contact4 Condification contact5 8 15 6 7 1A 9 10 11 12 13 14 Slide Type 16 17 18 19 20 2A 3 4 5 6 7 8 Condification contact6 Condification contact7 24-15$ CODE 24 1 2 3 TERM 1 2 3 POS Power contacts1-2 Circuit Diagram(Power Switch) 1 5 18 19 20 21 2 23 4 2 Rotary Type SDKZ1Q0200 2 Condification contact4 Condification contact5 1A 10 16 17 6 7 8 9 Condification contact3 2A 3 4 5 6 7 8 Condification contact6 Condification contact7 12 13 14 15 11 SDKZ1R0200 2 3 TERM 1 2 3 POS Power contacts1-2 Circuit Diagram(Power Switch) 1 11 17 6 7 8 9 10 18 5 19 20 21 22 4 6 2 13 14 15 1 174 CODE 4$ 25 1 -1 24 23 23 2-19$ 1 2 Condification contact3 Condification contact4 Condification contact5 1A 2A 3 4 5 6 7 8 Condification contact6 Condification contact7 Rocker Slide Series SDDJF1A SDKP 8A / 128A 250V〜 10 (6) / 250〜 5RA 250V AC 10,000cycles 100cycles 10A 250V AC Travel(mm) Rotary SDKZ SDDE PS: 16(6)A 250V AC 14(6)A 250V AC AC Switch: 1A / 16A 250V 〜 DC Switch: 20mA 12V DC DC: 0.1A 12V DC Encoders: 0.1A 12V DC 10,000cycles(Power) 30,000cycles(Encoder) AC Switch: 10,000 cycles DC Switch: 10,000 cycles Without load 16A 250V AC(Power) 0.1A 12V DC(Encoder) Encoder 30,000 cycles 4.6 6 Endless Push Switches: 1.85mm Encoders: 360° (360°Rotation) Features — — With Encoders circuit AC Switch, DC Switch, With Encoder Operating temperature range −10℃ to +55℃ −10℃ to +60℃ −10℃ to +70℃ 0℃ to +85℃ Automotive use ○ — — — 100mΩ max.(Power) AC Switch: 100mΩ max. DC Switch: 500mΩ max. Encoder: 1Ω max. Detector Type Photo Slide Rating 500MΩ min. 500V DC Voltage proof 2,000V AC for 1minute Terminal strength AC Switch: 2,000V AC for 1 minute DC Switch: 100V AC for 1 minute Encoder: 100V AC for 1 minute AC Switch: 5N for 1 minute DC Switch: 5N for 30s Encoder: 5N for 1 minute 50N for 1minute 10N for 1minute 25N 50N Encoder: 100V 100N 25N 50N 30N 30N (Retract direction) 5N(Encoder) Slide Type Environmental performance Operating Actuator direction strength Perpendicular direction 20N(Power) AC Switch: 100MΩ min. 500V DC DC Switch: 100MΩ min. 100V DC Encoder: 100MΩ min. 100V DC −20℃ 96h −40℃ 240h Dry heat 85℃ 96h 85℃ 240h Damp heat 40℃, 90 to 95%RH 96h 40℃, 90 to 95%RH 240h 170 171 172 Rotary Type Cold Page Rocker Type Mechanical performance 500MΩ min. 500V DC (Power) 100MΩ min. 100V DC (Encoder) 2,000V AC for 1minute (Power) 100V AC for 1minute (Encoder) Push Type Insulation resistance 1Ω max.(Encoder) Dual-in-line Package Type 100mΩ max. Power Electrical performance Contact resistance Rotary Life cycle (availability) Push Operating life 175 Power Switches Soldering Conditions・ ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 176 Power Switches Cautions・ ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 176 Power Switches Safety Standard・ ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 176 Note ○ Indicates applicability to some products in the series. 159 Power Switches Soldering Conditions Detector Reference for Hand Soldering Reference for Dip Soldering Slide Soldering temperature Soldering time SDDJE, SDDJF, SDKP, SDDJF1A, SDKZ, SDDE 350±10℃ 3+1/0s SDKR 300±10℃ 3±0.5s Series (For PC board terminal types and SDDJF right-angle terminal types) Series SDKR, SDDJE, SDDJF, SDKP, SDKZ, SDDE Dip soldering Soldering temperature Duration of immersion 260±5℃ 10±1s Push Power Switches Cautions Rotary Power Dual-in-line Package Type 1. The primary power supply switching is subject to the safety regulations, and the provisions differ by each destination. Consult with us for non-standard use cases. 2. An unstable contact may occur if the switch current is lower than 0.5A. For this case, consult with us. 3. These power switches were produced for alternating current. For direct current, consult with us. 4. Appling load to terminals during soldering under certain conditions may cause deformation and electrical property degradation. 5. Avoid use of water-soluble soldering flux, since it may corrode the switches. 6. When soldering twice, wait until the first soldered portion cools to normal temperature. Continuous heating will deform the external portions, loosen or dislodge terminals, or may deteriorate their electrical characteristics. 7. Before soldering switches with locking mechanism, release the locks. If they are soldered without releasing the locks, the soldering heat may deform the locking mechanism. 8. Be sure to release the locks before removing the knobs. Otherwise, the locking mechanism may be broken. 9. Be sure to use the switch with forced travel positioned as close to the total travel as possible. Push Type 10. Tighten the mounting screws by applying the specified torque. Tightening with a larger torque than the specified will result in malfunction or breakage of screws. 11. Corrosive gas if generated by peripheral parts of a set, malfunction such as imperfect contact may occur. Thorough investigation shall be required beforehand. 12. Storage Rocker Type Store the products as delivered at normal temperature and humidity, out of direct sunlight and away from corrosive gases. Use them as soon as possible and no later than six months after delivery. Once the seal is broken, use them as soon as possible. Slide Type Power Switches Safety Standards 1. Safety Standards Outline Rotary Type Safety standards are established by a country or an organization representing it to protect general users from electrical shock and fire hazards. It establishes standards for electrical devices and components. For electrical equipment manufacturers, utilizing switches that have been safety-approved ensures the safety of the switch. The use of a safety-approved switch also simplifies at least one part of the process of obtaining certification by safety testing. 2. Major Safety Standards Electrical Appliance and Material Safety Law (1) The conventional [Electrical Appliance and Material Control Law] has changed to [Electrical Appliance and Material Safety Law] and has been enforced since April 1, 2001. Electrical appliances are categorized into special electric appliances and parts(formerly Class A)and Electrical appliances other than the special electric appliances(formerly Class B). Special electric appliances are required to receive goodness of fit test at a certified test agency and to store the certificate. Also, penal provisions have been reinforced. UL (2) (Underwriters Laboratories Inc.) Underwriters Laboratories Inc.(UL)is the American safety approving organization. Its purpose is to ensure consumer safety and protect them from fire hazards. State law requires that equipment to be exported to the United States utilize UL approved power switches or power switches meeting UL standards and capable of passing UL tests. 176